Transcript Document

UNIT SIX: Earth’s Structure
 Chapter 18 Earth’s History and
Rocks
 Chapter 19 Changing Earth
 Chapter 20 Earthquakes and
Volcanoes
Chapter Eighteen: Earth’s History
and Rocks
 18.1 Geologic Time
 18.2 Relative Dating
 18.3 The Rock Cycle
18.2 Learning Goals
 Compare and contrast methods of relative
dating.
 Discover the contributions of scientists whose
theories help to develop modern geology.
 Explain the importance of fossils.
Investigation 18B
Relative Dating
 Key Question:
How does relative dating tell a story?
18.2 The beginnings of geology
 In 1666, Nicholas
Steno, a Danish
anatomist, studied a
shark’s head and
noticed that the
shark’s teeth
resembled mysterious
stones called
“tonguestones”.
18.2 The beginnings of geology
 Steno theorized that
tonguestones looked
like shark’s teeth
because they actually
were shark’s teeth that
had been buried and
became fossils.
18.2 Relative dating
 Steno’s principles are
used by geologists to
determine the age of
fossils and rocks in a
process called relative
dating.
Which event happened
first?
 Relative dating is a
method of sequencing
events in the order they
happened.
18.2 Relative dating
 James Hutton (1726–1797)
showed how processes
today might explain what
happened a long time ago.
 For example, grooves left
behind by flowing
rainwater helped explain
the formation of the Grand
Canyon from the Colorado
River.
18.2 Law of superposition
 Steno’s ideas for relative
dating include
superposition, original
horizontality, and lateral
continuity.
 Steno identified the law
of superposition, which
states that the bottom
layer of a rock formation
is older than the layer on
top.
18.2 Law of horizontality
 Steno also identified the law of original
horizontality which refers to how
sediment particles settle to the bottom of
a body of water in response to gravity.
 Horizontal layers of rock might become
tilted or folded by a geological event.
18.2 Original horizontality
Layers might be tilted at any angle
and can even be upside down.
18.2 Law of lateral continuity
 The law of lateral continuity refers to
how layers of sediment extend in all
directions horizontally unless a river
erodes them or an earthquake moves
them.
18.2 The relative age of a rock
 The principle of crosscutting relationships
states that a vein of rock
or a fault that cuts across
a rock’s layers is younger
(more recent) than the
layers.
 The middle and top layers
formed after the bottom
layer but before the vein.
18.2 Fossil succession
 The principle of fossil succession means that
fossils can be used to identify the relative age
of the layers of a rock formation.
 The organisms
found in the top
layers appeared
after the
organisms found
in the layers
below them.
18.2 Fossils and Earth’s changing
surface
 Most of the land on Earth was part of a
large landmass called Pangaea about 250
millions of years ago.
18.2 Fossils and Earth’s changing
surface
 Fossils provide evidence
for how Earth’s surface
has changed over time.
 Scientists map fossil
locations.
 Understanding Earth’s
past helps explain how
similar plants and
animals ended up in
different locations.